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Entropy of Branching Out: Linear versus Branched Alkylthiols Ligands on CdSe Nanocrystals | The Banin Research Group

Entropy of Branching Out: Linear versus Branched Alkylthiols Ligands on CdSe Nanocrystals

Citation:

Orian Elimelech, Aviv, Omer , Oded, Meirav , Peng, Xiaogang , Harries, Daniel , and Banin, Uri . 2/14/2022. “Entropy Of Branching Out: Linear Versus Branched Alkylthiols Ligands On Cdse Nanocrystals”. Acs Nano, 16, Pp. 4308–4321. https://doi.org/10.1021/acsnano.1c10430. Copy at http://https://tinyurl.com/yb7efluk

Abstract:

Surface ligands of semiconductor nanocrystals (NCs) play key roles in determining their colloidal stability and physicochemical properties and are thus enablers also for the NCs flexible manipulation toward numerous applications. Orian_2022Attention is usually paid to the ligand binding group, while the impact of the ligand chain backbone structure is less discussed. Using isothermal titration calorimetry (ITC), we studied the effect of structural changes in the ligand chain on the thermodynamics of the exchange reaction for oleate coated CdSe NCs, comparing linear and branched alkylthiols. The investigated alkylthiol ligands differed in their backbone length, branching position, and branching group length. Compared to linear ligands, lower exothermicity and entropy loss were observed for an exchange with branched ligands, due to steric hindrance in ligand packing, thereby justifying their previous classification as “entropic ligands”. Mean-field calculations for ligand binding demonstrate the contribution to the overall entropy originating from ligand conformational entropy, which is diminished upon binding mainly by packing of NC-bound ligands. Model calculations and the experimental ITC data both point to an interplay between the branching position and the backbone length in determining the entropic nature of the branched ligand. Our findings suggest that the most entropic ligand should be a short, branched ligand with short branching group located toward the middle of the ligand chain. The insights provided by this work also contribute to a future smarter NC surface design, which is an essential tool for their implementation in diverse applications.

Notes:

doi: 10.1021/acsnano.1c10430
Last updated on 08/29/2022